Corticostriatal Functional(皮质纹状体功能)研究综述
Corticostriatal Functional 皮质纹状体功能 - However, the impact of peripheral inflammation on the corticostriatal functional connectivity (FC) remains obscure in BD. [1] We then show that corticostriatal functional connectivity increases offline, coupled to emerging consistent skilled movements, and coupled cross-area neural dynamics. [2] We also show that corticostriatal functional connectivity is correlated with individual variability in social behavior only in A350V mice, as assessed using the three-chamber social preference test. [3] We evaluated corticostriatal functional connectivity differences by placing seeds in the caudate nucleus and Heschl’s Gyrus (HG) of both hemispheres. [4] METHODS We examined corticostriatal functional connectivity in 60 healthy subjects and 117 individuals with psychosis, including 77 with a schizophrenia spectrum illness and 40 with psychotic bipolar disorder. [5] Examining the contribution of the striatum revealed that corticostriatal functional connectivity was altered. [6] Examining the contribution of the striatum revealed that corticostriatal functional connectivity was altered. [7]然而,外周炎症对皮质纹状体功能连接 (FC) 的影响在 BD 中仍然不清楚。 [1] 然后,我们表明皮质纹状体功能连接离线增加,与新兴的一致熟练运动和耦合跨区域神经动力学相结合。 [2] 我们还表明,仅在 A350V 小鼠中,皮质纹状体功能连接与社会行为的个体变异性相关,正如使用三室社会偏好测试所评估的那样。 [3] 我们通过将种子放置在两个半球的尾状核和 Heschl 回 (HG) 中来评估皮质纹状体功能连接性差异。 [4] 方法 我们检查了 60 名健康受试者和 117 名精神病患者的皮质纹状体功能连接,其中 77 名患有精神分裂症谱系疾病,40 名患有精神病性双相情感障碍。 [5] 检查纹状体的贡献揭示了皮质纹状体的功能连接性发生了改变。 [6] 检查纹状体的贡献揭示了皮质纹状体的功能连接性发生了改变。 [7]
corticostriatal functional connectivity 皮质纹状体功能连接
However, the impact of peripheral inflammation on the corticostriatal functional connectivity (FC) remains obscure in BD. [1] We then show that corticostriatal functional connectivity increases offline, coupled to emerging consistent skilled movements, and coupled cross-area neural dynamics. [2] We also show that corticostriatal functional connectivity is correlated with individual variability in social behavior only in A350V mice, as assessed using the three-chamber social preference test. [3] We evaluated corticostriatal functional connectivity differences by placing seeds in the caudate nucleus and Heschl’s Gyrus (HG) of both hemispheres. [4] METHODS We examined corticostriatal functional connectivity in 60 healthy subjects and 117 individuals with psychosis, including 77 with a schizophrenia spectrum illness and 40 with psychotic bipolar disorder. [5] Examining the contribution of the striatum revealed that corticostriatal functional connectivity was altered. [6] Examining the contribution of the striatum revealed that corticostriatal functional connectivity was altered. [7]然而,外周炎症对皮质纹状体功能连接 (FC) 的影响在 BD 中仍然不清楚。 [1] 然后,我们表明皮质纹状体功能连接离线增加,与新兴的一致熟练运动和耦合跨区域神经动力学相结合。 [2] 我们还表明,仅在 A350V 小鼠中,皮质纹状体功能连接与社会行为的个体变异性相关,正如使用三室社会偏好测试所评估的那样。 [3] 我们通过将种子放置在两个半球的尾状核和 Heschl 回 (HG) 中来评估皮质纹状体功能连接性差异。 [4] 方法 我们检查了 60 名健康受试者和 117 名精神病患者的皮质纹状体功能连接,其中 77 名患有精神分裂症谱系疾病,40 名患有精神病性双相情感障碍。 [5] 检查纹状体的贡献揭示了皮质纹状体的功能连接性发生了改变。 [6] 检查纹状体的贡献揭示了皮质纹状体的功能连接性发生了改变。 [7]